Run on Target Hardware
Build a Simulink® model and run it on your Raspberry Pi® hardware in real time. Interact with your Simulink model using signal monitoring and parameter tuning in external model.
|Raspberry Pi Resource Monitor App||Monitor and manage Raspberry Pi resources such as MATLAB/Simulink deployed processes, CPU, RAM, SD card, external peripheral devices, and interfaces|
- Support I2C Communication
Support I2C communication.
- Support SPI Communication
Enable communication with other SPI devices by using the SPI Master Transfer block from the support package library.
- Asynchronous Serial Communication
Asynchronous serial communication.
- Signal Monitoring and Parameter Tuning
Overview of the operation of external with attached hardware boards.
Examples and How to
Communicating with Raspberry Pi Hardware
This example shows how to tune the parameters and monitor the signals of an algorithm running on Raspberry Pi® board.
Communicate with Hardware Using Connected IO
Get peripheral data from the hardware before deploying the Simulink model on the hardware.
Tune and Monitor Model Running on Hardware
Use your host computer to monitor and control an application running on the target hardware.
Run Simulink Model on Raspberry Pi Hardware
Run a Simulink model on Raspberry Pi hardware.
Automatically Run Simulink Model on Raspberry Pi After Restart
Automatically start a Simulink model deployed on Raspberry Pi hardware every time you restart the hardware.
Stop or Restart a Model Running on Raspberry Pi Hardware
Stop or restart a model running on Raspberry Pi hardware.
Configure and Calibrate Pan Tilt Hardware Using Raspberry Pi Pan Tilt HAT
This example shows how to configure and calibrate the pan and tilt hardware using the Pan Tilt HAT block from Simulink® Support Package for Raspberry Pi® Hardware.
Configure Image and Device Properties of Raspberry Pi V4L2 Video Capture Block to Detect Objects
This example shows how to configure the image and device properties of the V4L2 Video Capture block from Simulink® Support Package for Raspberry Pi® Hardware and observe the output in the SDL Video Display block.
Publish MQTT Messages and Subscribe to Message Topics
Basics of the MQTT messaging protocol.
Implement Connected I/O to Communicate with External Peripheral Devices Using Raspberry Pi
This workflow shows how to implement connected I/O in Normal mode of simulation using Raspberry Pi hardware.
Publish or Retrieve Data to Internet of Things Using ThingSpeak
Publish Data to Internet of Things using ThingSpeak.
Log Humidity and Temperature Values to Database and Calculate Dew Point Using External C Code Integration Workflow
This example shows how to use Simulink® Support Package for Raspberry Pi® Hardware to integrate a user-defined C function with a Simulink model and achieve the following:
Implement Multicore Programming with CPU Core Affinity for Raspberry Pi
This example shows how to use explicit partitioning for Simulink® Support Package for Raspberry Pi® Hardware models to create atomic subsystems and concurrently execute tasks on a multicore Raspberry Pi processor.